Public Release: 15-Feb-2016
The team of Bruno Giros, a researcher at the Douglas Mental Health University Institute and professor of psychiatry at McGill University, reports the first-ever connection between noradrenergic neurons and vulnerability to depression. Published in the journal Nature Neuroscience, this breakthrough paves the way for new depression treatments that target the adrenergic system.
Stressful life events–job loss, accident, death of a loved one–can trigger major depression in one person, but not in another. A deciding factor is resilience, a biological mechanism that determines an individual’s capacity to rebound from stressful or traumatic events. Researchers are still learning how resilience works.
“We know that a small cerebral structure, known as the ventral tegmental area, contains dopaminergic neurons that play a key role in vulnerability to depression,” explains Bruno Giros, whose team is part of the CIUSSS de l’Ouest-de-l’Île-de-Montréal research network. By mimicking stressful life events in animal models, the researchers confirmed that increased dopaminergic neuron activity corresponds to depression.
Vulnerability under control
Their research further shows that a second type of neuron, noradrenergic neurons, controls dopaminergic neuron activity. “It is this control that steers the body’s response toward resilience or toward vulnerability to depression,” says Giros.
Noradrenergic neurons are located in a cerebral structure named Locus coeruleus. These neurons communicate with each other using noradrenaline, a neurotransmitter molecule involved in emotional regulation, sleep and mood disorders–and, Giros now believes, resilience and depression.
By combining pharmacological, genetic and optogenetic (activation of the neurons activity by a light beam) approaches, Giros’s team showed that animals that cannot release noradrenaline are systematically vulnerable to depression following chronic stress. This is not, however, an irreversible condition: increasing noradrenaline production results in higher resilience–and less depression.
“Beyond this discovery about the brain mechanisms involved in depression, our results help explain how adrenergic drugs may work and could be used to treat major depression,” Giros says.
This work was funded by the Canada Research Chairs program, the Graham Boeckh Foundation and the Natural Sciences and Engineering Research Council.
“Resilience against chronic stress is mediated by noradrenergic regulation of dopamine neurons,” Nature Neuroscience, published online 15 February 2016.
About Bruno Giros
Bruno Giros, PhD, is the holder of the Graham Boeckh Chair in Schizophrenia and the Canada Research Chair in Neurobiology of Mental Disorders. He is one of the world’s leading scientists in the study and treatment of schizophrenia. In 1999, he created the Neurobiology and Psychiatry Laboratory at the Institut national de la santé et de la recherche médicale (INSERM) in France. He came to the Douglas Institute in 2008.
About the CIUSSS de l’Ouest-de-l’Île-de-Montréal
The Centre intégré universitaire de santé et de services sociaux (CIUSSS) de l’Ouest-de-l’Île-de-Montréal is made up of the CSSS de l’Ouest-de-l’Île, CSSS de Dorval-Lachine-LaSalle, St. Mary’s Hospital, Douglas Mental Health University Institute, West Montreal Readaptation Centre, Grace Dart Extended Care Centre, and Batshaw Youth and Family Centres. It employs 9,000 staff members and 750 physicians.
About the Douglas Mental Health University Institute
The Douglas is a world-class institute affiliated with McGill University and the World Health Organization. It treats people suffering from mental illness and offers them both hope and healing. Its teams of specialists and researchers are constantly increasing scientific knowledge, integrating this knowledge into patient care, and sharing it with the community in order to educate the public and eliminate prejudices surrounding mental health.
Centre intégré universitaire de santé et de services sociaux de l’Ouest-de-l’Île-de-Montréal
Categories: Missed - Medical Breakthroughs